"**VBsemi FDN352AP-NL-VB**
- **Brand:** VBsemi
- **Package:** SOT23
**Parameters:**
- Channel type: P—Channel
- Maximum withstand voltage: -30V
- Maximum current: -5.6A
- On resistance: 47mΩ @ VGS=10V, VGS=20V
- Threshold voltage: Vth=-1V
**Application introduction:**
VBsemi FDN352AP-NL-VB is suitable for circuit design that requires P—Channel channel and provides reliable performance parameters. It is suitable for some application scenarios that need to control current at a -30V operating voltage.
**Fields and module applications:**
1. **Power management module:** Due to its P-Channel channel and moderate voltage resistance characteristics, it is suitable for power switches and voltage regulator modules.
2. **Current control field:** In circuits that require precise current control, FDN352AP-NL-VB can be used to design current sources and loads.
Please note that the specific application depends on the project requirements and the requirements of other circuit components. When designing a circuit, please refer to the data sheet to ensure correct use and performance."
- **Brand:** VBsemi
- **Package:** SOT23
**Parameters:**
- Channel type: P—Channel
- Maximum withstand voltage: -30V
- Maximum current: -5.6A
- On resistance: 47mΩ @ VGS=10V, VGS=20V
- Threshold voltage: Vth=-1V
**Application introduction:**
VBsemi FDN352AP-NL-VB is suitable for circuit design that requires P—Channel channel and provides reliable performance parameters. It is suitable for some application scenarios that need to control current at a -30V operating voltage.
**Fields and module applications:**
1. **Power management module:** Due to its P-Channel channel and moderate voltage resistance characteristics, it is suitable for power switches and voltage regulator modules.
2. **Current control field:** In circuits that require precise current control, FDN352AP-NL-VB can be used to design current sources and loads.
Please note that the specific application depends on the project requirements and the requirements of other circuit components. When designing a circuit, please refer to the data sheet to ensure correct use and performance."
Category
🤖
Tech